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 graph/spsp

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mul_test.go

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// Copyright ©2015 The Gonum Authors. All rights reserved.

// Use of this source code is governed by a BSD-style

// license that can be found in the LICENSE file.

package mat

import (

"testing"

"golang.org/x/exp/rand"

"gonum.org/v1/gonum/blas"

"gonum.org/v1/gonum/blas/blas64"

"gonum.org/v1/gonum/floats"

)

// TODO: Need to add tests where one is overwritten.

func TestMulTypes(t *testing.T) {

t.Parallel()

src := rand.NewSource(1)

for _, test := range []struct {

ar int

ac int

br int

bc int

Panics bool

}{

{

ar: 5,

ac: 5,

br: 5,

bc: 5,

Panics: false,

},

{

ar: 10,

ac: 5,

br: 5,

bc: 3,

Panics: false,

},

{

ar: 10,

ac: 5,

br: 5,

bc: 8,

Panics: false,

},

{

ar: 8,

ac: 10,

br: 10,

bc: 3,

Panics: false,

},

{

ar: 8,

ac: 3,

br: 3,

bc: 10,

Panics: false,

},

{

ar: 5,

ac: 8,

br: 8,

bc: 10,

Panics: false,

},

{

ar: 5,

ac: 12,

br: 12,

bc: 8,

Panics: false,

},

{

ar: 5,

ac: 7,

br: 8,

bc: 10,

Panics: true,

},

} {

ar := test.ar

ac := test.ac

br := test.br

bc := test.bc

// Generate random matrices

avec := make([]float64, ar*ac)

randomSlice(avec, src)

a := NewDense(ar, ac, avec)

bvec := make([]float64, br*bc)

randomSlice(bvec, src)

b := NewDense(br, bc, bvec)

// Check that it panics if it is supposed to

if test.Panics {

c := &Dense{}

fn := func() {

c.Mul(a, b)

}

pan, _ := panics(fn)

if !pan {

t.Errorf("Mul did not panic with dimension mismatch")

}

continue

}

cvec := make([]float64, ar*bc)

// Get correct matrix multiply answer from blas64.Gemm

blas64.Gemm(blas.NoTrans, blas.NoTrans,

1, a.mat, b.mat,

0, blas64.General{Rows: ar, Cols: bc, Stride: bc, Data: cvec},

)

avecCopy := append([]float64{}, avec...)

bvecCopy := append([]float64{}, bvec...)

cvecCopy := append([]float64{}, cvec...)

acomp := matComp{r: ar, c: ac, data: avecCopy}

bcomp := matComp{r: br, c: bc, data: bvecCopy}

ccomp := matComp{r: ar, c: bc, data: cvecCopy}

// Do normal multiply with empty dense

d := &Dense{}

testMul(t, a, b, d, acomp, bcomp, ccomp, false, "empty receiver")

// Normal multiply with existing receiver

c := NewDense(ar, bc, cvec)

randomSlice(cvec, src)

testMul(t, a, b, c, acomp, bcomp, ccomp, false, "existing receiver")

// Cast a as a basic matrix

am := (*basicMatrix)(a)

bm := (*basicMatrix)(b)

d.Reset()

testMul(t, am, b, d, acomp, bcomp, ccomp, true, "a is basic, receiver is empty")

d.Reset()

testMul(t, a, bm, d, acomp, bcomp, ccomp, true, "b is basic, receiver is empty")

d.Reset()

testMul(t, am, bm, d, acomp, bcomp, ccomp, true, "both basic, receiver is empty")

randomSlice(cvec, src)

testMul(t, am, b, d, acomp, bcomp, ccomp, true, "a is basic, receiver is full")

randomSlice(cvec, src)

testMul(t, a, bm, d, acomp, bcomp, ccomp, true, "b is basic, receiver is full")

randomSlice(cvec, src)

testMul(t, am, bm, d, acomp, bcomp, ccomp, true, "both basic, receiver is full")

}

}

func randomSlice(s []float64, src rand.Source) {

rnd := rand.New(src)

for i := range s {

s[i] = rnd.NormFloat64()

}

}

type matComp struct {

r, c int

data []float64

}

func testMul(t *testing.T, a, b Matrix, c *Dense, acomp, bcomp, ccomp matComp, cvecApprox bool, name string) {

c.Mul(a, b)

var aDense *Dense

switch t := a.(type) {

case *Dense:

aDense = t

case *basicMatrix:

aDense = (*Dense)(t)

}

var bDense *Dense

switch t := b.(type) {

case *Dense:

bDense = t

case *basicMatrix:

bDense = (*Dense)(t)

}

if !denseEqual(aDense, acomp) {

t.Errorf("a changed unexpectedly for %v", name)

}

if !denseEqual(bDense, bcomp) {

t.Errorf("b changed unexpectedly for %v", name)

}

if cvecApprox {

if !denseEqualApprox(c, ccomp, 1e-14) {

t.Errorf("mul answer not within tol for %v", name)

}

return

}

if !denseEqual(c, ccomp) {

t.Errorf("mul answer not equal for %v", name)

}

}

func denseEqual(a *Dense, acomp matComp) bool {

ar2, ac2 := a.Dims()

if ar2 != acomp.r {

return false

}

if ac2 != acomp.c {

return false

}

if !floats.Equal(a.mat.Data, acomp.data) {

return false

}

return true

}

func denseEqualApprox(a *Dense, acomp matComp, tol float64) bool {

ar2, ac2 := a.Dims()

if ar2 != acomp.r {

return false

}

if ac2 != acomp.c {

return false

}

if !floats.EqualApprox(a.mat.Data, acomp.data, tol) {

return false

}

return true

}